Investigation of common-mode voltage and ground leakage current of grid-connected transformerless PV inverter topology
DOI:
https://doi.org/10.17159/2413-3051/2015/v26i1a2217Abstract
The problems of increasing electricity demand by the unabated population and economy growth can be solved by employing sustainable distributed generation technologies. Convectional primary energy sources such as coal, liquid hydrocarbons’ and natural gasses create environmental degradation and energy security problems. Even though the cost of solar energy is zero, the same cannot be said of a solar energy system. The system cost especially the initial capital investment has been hindering the rapid deployment of solar energy systems. One way of reducing the system cost of a solar energy system is to look into the constituent components and see where cost can be reduced without compromising the system efficiency and human safety. Eliminating the isolation transformer reduces the cost and increases the system overall efficiency. However, the galvanic connection between the PV array and the utility grid creates a safety problem for people and system equipment. We present a simplified model for the investigation of the common mode voltage and ground leakage current that can lead to electromagnetic interference. The leakage current level is used for the determination of the suitability of the investigated PV inverter topology for grid connection without isolation transformer.Downloads
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Published
2015-03-23
How to Cite
Raji, A. K., & Kahn, M. T. E. (2015). Investigation of common-mode voltage and ground leakage current of grid-connected transformerless PV inverter topology. Journal of Energy in Southern Africa, 26(1), 20–24. https://doi.org/10.17159/2413-3051/2015/v26i1a2217
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